U.S. patent application number 09/987254 was filed with the patent office on 2002-05-23 for following distance displaying apparatus that changes alarming display according to operating states.
Invention is credited to Kannonji, Michihiro.
Application Number | 20020062189 09/987254 |
Document ID | / |
Family ID | 18864150 |
Filed Date | 2002-05-23 |
United States Patent
Application |
20020062189 |
Kind Code |
A1 |
Kannonji, Michihiro |
May 23, 2002 |
Following distance displaying apparatus that changes alarming
display according to operating states
Abstract
The following distance alarming apparatus includes a memory
responsive to an output signal value of a sensor, which changes in
accordance with a driver's operation for speed adjustment of a
subject vehicle, having remained unchanged for a prescribed time
period, for storing a reference value for the output signal value
of the sensor, and an alarming circuit determining a possibility of
collision of the subject vehicle with a preceding vehicle, based on
a following distance measured by a following distance measuring
device when the output signal value from the sensor remained
unchanged for the prescribed time period, the output signal value
from the sensor and the reference value stored in the memory, and
outputting a warning sound.
Inventors: |
Kannonji, Michihiro; (Osaka,
JP) |
Correspondence
Address: |
McDERMOTT, WILL & EMERY
600 13th Street, N.W.
Washington
DC
20005-3096
US
|
Family ID: |
18864150 |
Appl. No.: |
09/987254 |
Filed: |
November 14, 2001 |
Current U.S.
Class: |
701/96 ; 340/903;
342/455; 701/301 |
Current CPC
Class: |
G08G 1/161 20130101 |
Class at
Publication: |
701/96 ; 701/301;
340/903; 342/455 |
International
Class: |
G08G 001/16 |
Foreign Application Data
Date |
Code |
Application Number |
Nov 22, 2000 |
JP |
2000-399361(P) |
Claims
What is claimed is:
1. A following distance alarming apparatus connected to receive
output signals of a following distance measuring device and a
sensor having an output signal value that changes in accordance
with a driver's operation for speed adjustment of a subject
vehicle, comprising: a memory connectable to receive the output
signal value of said sensor and, responsive to the output signal
value from said sensor having remained unchanged for a prescribed
time period, for storing a reference value for the output signal
value of said sensor based on the output signal value from said
sensor; and a first alarming circuit connectable to receive the
output signal value of said sensor and an output signal value of
said following distance measuring device and further connected to
said memory, and determining a possibility of collision of the
subject vehicle with a preceding vehicle based on a following
distance measured by said following distance measuring device when
the output signal value from said sensor remained unchanged for the
prescribed time period, the output signal value from said sensor
and said reference value stored in said memory, to output a warning
sound.
2. The following distance alarming apparatus according to claim 1,
wherein said first alarming circuit includes means, connectable to
receive the output signal values of said sensor and said following
distance measuring device, and determining an alarm generating
distance based on the following distance output from said following
distance measuring device when the output signal value from said
sensor remained unchanged for the prescribed time period, and a
determining circuit connectable to receive the output signal value
of said following distance measuring device and, responsive to said
following distance measuring device having measured said alarm
generating distance, for determining the possibility of collision
by examining whether the output signal value from said sensor
satisfies a prescribed relation with said reference value.
3. The following distance alarming apparatus according to claim 2,
wherein said reference value stored in said memory is for
determining a predetermined range, and said determining circuit
includes a circuit connectable to receive the output signal value
of said following distance measuring device and, responsive to said
following distance measuring device having measured said alarm
generating distance, for determining that there is the possibility
of collision when the output signal value from said sensor is
within said predetermined range, and determining that there is no
possibility of collision when the output signal value from said
sensor is out of said predetermined range.
4. The following distance alarming apparatus according to claim 3,
further comprising a circuit, responsive to said determining
circuit having determined that there is no possibility of
collision, for resetting an operation of said following distance
alarming apparatus.
5. The following distance alarming apparatus according to claim 2,
further comprising a means for detecting, after the output value of
said sensor remained unchanged for the prescribed time period, that
the output value of said sensor again remains unchanged for a
prescribed time period, and for causing a reference value
determined based upon the output of said sensor at that time to be
stored on the memory, and a second alarming circuit, responsive to
the output signal value from said sensor having satisfied a
prescribed relation with said reference value and responsive to
said following distance measuring device having measured the alarm
distance determined corresponding to the following distance at the
time of said output value of said sensor remaining for the
prescribed time period, for determining the possibility of
collision of the subject vehicle with the preceding vehicle based
on the output signal value from said sensor and said reference
value stored in said memory, to output the alarm.
6. The following distance alarming apparatus according to claim 1,
further comprising a means for detecting, after the output value of
said sensor remained unchanged for the prescribed time period, that
the output value of said sensor again remains unchanged for a
prescribed time period, and for causing a reference value
determined based upon the output of said sensor at that time to be
stored on the memory, and a second alarming circuit, responsive to
the output signal value from said sensor having satisfied a
prescribed relation with said reference value and responsive to
said following distance measuring device having measured the alarm
distance determined corresponding to the following distance at the
time of said output value of said sensor remaining for the
prescribed time period, for determining the possibility of
collision of the subject vehicle with the preceding vehicle based
on the output signal value from said sensor and said reference
value stored in said memory, to output the alarm.
7. A following distance alarming apparatus connected to receive
output signals of a following distance measuring device and a
sensor having an output signal value that changes in accordance
with a driver's operation for speed adjustment of a subject
vehicle, comprising: a memory connectable to receive the output
signal of said following distance measuring device and, when it is
detected that the subject vehicle and a preceding vehicle have
maintained a follow-up travel state for a prescribed time period
based on a following distance measured by said following distance
measuring device, storing a reference value determined based on the
output signal value from said sensor at that time; a first alarming
circuit connectable to receive the output signals of said sensor
and said following distance measuring device and further connected
to said memory and, responsive to said following distance measuring
device having measured an alarm distance determined corresponding
to the following distance at the time of said follow-up travel
state, for determining a possibility of collision of the subject
vehicle with a preceding vehicle based on the output signal value
from said sensor and said reference value stored in said memory, to
output a warning sound; a means for, when it is detected that the
subject vehicle and a preceding vehicle have maintained a follow-up
travel state for a prescribed time period again, causing said
memory to store a reference value determined based upon the output
value of said sensor; and a second alarming circuit, responsive to
the output signal value from said sensor having satisfied a
prescribed relation with said reference value and responsive to
said following distance measuring device having measured the alarm
distance determined corresponding to the following distance at the
time of said follow-up travel state, for determining the
possibility of collision of the subject vehicle with the preceding
vehicle based on the output signal value from said sensor and said
reference value stored in said memory, to output the alarm.
8. The following distance alarming apparatus according to claim 7,
wherein said alarming circuit further includes a circuit,
responsive to said following distance measuring device having
measured the following distance greater than said alarm distance,
for resetting said following distance alarming device.
9. A following distance alarming apparatus, comprising: an alarm
unit outputting a warning sound, based on a following distance
measurement signal, when a following distance from a subject
vehicle to a preceding vehicle decreases to a prescribed value; a
detecting unit detecting that an output signal from a sensor having
an output signal value changing in accordance with a driver's
operation for control of a speed of the subject vehicle has
remained unchanged for a prescribed time period; and a display
unit, responsive to said detecting unit having detected that the
output signal from said sensor had remained unchanged for the
prescribed time period, for displaying the following distance at
which said alarm unit activates.
10. The following distance alarming apparatus according to claim 9,
further comprising: a memory connectable to said sensor and storing
a reference value determined in accordance with the output signal
value of said sensor; and a display control circuit connectable to
said sensor and, responsive to the output signal value of said
sensor having failed to satisfy a prescribed relation with the
reference value stored in said memory, for extinguishing and/or
changing display on said display unit in a predetermined
manner.
11. The following distance alarming apparatus according to claim
10, wherein said display control circuit extinguishes and/or
changes the display on said display unit in the predetermined
manner in response to a state where the output signal value of said
sensor fails to satisfy the prescribed relation with the reference
value stored in said memory having continued for a prescribed time
period.
12. The following distance alarming apparatus according to claim 9,
wherein the following distance at which said alarm unit activates
is predetermined corresponding to the following distance measured
when the output signal value of said sensor remained unchanged for
the prescribed time period.
13. The following distance alarming apparatus according to claim 9,
wherein the following distance at which said alarm unit activates
is predetermined corresponding to the speed of the subject vehicle
measured when the output signal value of said sensor remained
unchanged for the prescribed time period.
14. A following distance alarming apparatus, comprising: an alarm
unit outputting a warning sound, based on a following distance
measurement signal, when a following distance from a subject
vehicle to a preceding vehicle decreases to a prescribed value; a
detecting unit detecting that a value of said following distance
measurement signal has remained unchanged for a prescribed time
period; and a display unit, responsive to said detecting unit
having detected that the value of said following distance
measurement signal had remained unchanged for the prescribed time
period, for displaying the following distance at which said alarm
unit activates.
15. The following distance alarming apparatus according to claim
14, further comprising: a memory connectable to a sensor having an
output signal value that changes in accordance with a driver's
operation for control of a speed of the subject vehicle, and
storing a reference value determined in accordance with the output
signal value of said sensor; and a display control circuit
connectable to said sensor and, responsive to the output signal
value of said sensor having failed to satisfy a prescribed relation
with the reference value stored in said memory, for extinguishing
and/or changing display on said display unit in a predetermined
manner.
16. The following distance alarming apparatus according to claim
15, wherein said display control circuit extinguishes and/or
changes the display on said display unit in the predetermined
manner in response to a state where the output signal value of said
sensor fails to satisfy the prescribed relation with the reference
value stored in said memory having continued for a prescribed time
period.
17. The following distance alarming apparatus according to claim
14, wherein the following distance at which said alarm unit
activates is predetermined corresponding to the following distance
measured when the value of said following distance measurement
signal has remained unchanged for a prescribed time period.
18. The following distance alarming apparatus according to claim
14, wherein the following distance at which said alarm unit
activates is predetermined corresponding to the speed of the
subject vehicle measured when the value of said following distance
measurement signal has remained unchanged for a prescribed time
period.
19. A following distance alarming apparatus, comprising: an alarm
unit outputting a warning sound, based on a following distance
measurement signal, when a following distance from a subject
vehicle to a preceding vehicle decreases to a prescribed value; a
detecting unit detecting that an output signal from a sensor having
an output signal value changing in accordance with a driver's
operation for control of a speed of the subject vehicle has
remained unchanged for a prescribed time period; and a display
unit, responsive to said detecting unit having detected that the
output signal of said sensor had remained unchanged for the
prescribed time period, for displaying a difference between the
following distance indicated by said following distance measurement
signal and the following distance at which said alarm unit
activates.
20. The following distance alarming apparatus according to claim
19, further comprising: a memory connectable to said sensor, and
storing a reference value determined in accordance with the output
signal value of said sensor; and a display control circuit
connectable to said sensor and, responsive to the output signal
value of said sensor having failed to satisfy a prescribed relation
with the reference value stored in said memory, for extinguishing
and/or changing display on said display unit in a predetermined
manner.
21. The following distance alarming apparatus according to claim
20, wherein said display control circuit extinguishes and/or
changes the display on said display unit in the predetermined
manner in response to a state where the output signal value of said
sensor fails to satisfy the prescribed relation with the reference
value stored in said memory having continued for a prescribed time
period.
22. The following distance alarming apparatus according to claim
19, wherein the following distance at which said alarm unit
activates is predetermined corresponding to the following distance
measured when the output signal value of said sensor remained
unchanged for a prescribed time period.
23. The following distance alarming apparatus according to claim
19, wherein the following distance at which said alarm unit
activates is predetermined corresponding to the speed of the
subject vehicle measured when the output signal value of said
sensor remained unchanged for a prescribed time period.
24. A following distance alarming apparatus, comprising: an alarm
unit outputting a warning sound, based on a following distance
measurement signal, when a following distance from a subject
vehicle to a preceding vehicle decreases to a prescribed value; a
detecting unit detecting that a value of said following distance
measurement signal has remained unchanged for a prescribed time
period; and a display unit, responsive to said detecting unit
having detected that the value of said following distance
measurement signal had remained unchanged for the prescribed time
period, for displaying a difference between the following distance
indicated by said following distance measurement signal and the
following distance at which said alarm unit activates.
25. The following distance alarming apparatus according to claim
24, further comprising: a memory connectable to a sensor having an
output signal value that changes in accordance with a driver's
operation for control of a speed of the subject vehicle, and
storing a reference value determined in accordance with the output
signal value of said sensor; and a display control circuit
connectable to said sensor and, responsive to the output signal
value of said sensor having failed to satisfy a prescribed relation
with the reference value stored in said memory, for extinguishes
and/or changing display on said display unit in a predetermined
manner.
26. The following distance alarming apparatus according to claim
25, wherein said display control circuit extinguishes and/or
changes the display on said display unit in the predetermined
manner in response to a state where the output signal value of said
sensor fails to satisfy the prescribed relation with the reference
value stored in said memory having continued for a prescribed time
period.
27. The following distance alarming apparatus according to claim
24, wherein the following distance at which said alarm unit
activates is predetermined corresponding to the following distance
measured when the value of said following distance measurement
signal has remained unchanged for a prescribed time period.
28. The following distance alarming apparatus according to claim
24, wherein the following distance at which said alarm unit
activates is predetermined corresponding to the speed of the
subject vehicle measured when the value of said following distance
measurement signal has remained unchanged for a prescribed time
period.
29. A following distance alarming apparatus, comprising: an alarm
unit outputting a warning sound, based on a following distance
measurement signal, when a following distance from a subject
vehicle to a preceding vehicle decreases to a prescribed value; an
input device provided to the subject vehicle; and a display unit
displaying a distance at which said alarm unit activates based on
an input signal from said input device.
30. The following distance alarming apparatus according to claim
29, wherein the distance at which said alarm unit activates is
preset with respect to the following distance measured upon
receiving the input signal from said input device.
31. The following distance alarming apparatus according to claim
29, wherein the distance at which said alarm unit activates is
preset with respect to a speed of the subject vehicle measured upon
receiving the input signal from said input device.
32. A following distance alarming apparatus, comprising: an alarm
unit outputting a warning sound, based on a following distance
measurement signal, when a following distance from a subject
vehicle to a preceding vehicle decreases to a prescribed value; an
input device provided to the subject vehicle; and a display unit
displaying a difference between a distance to the preceding vehicle
indicated by said following distance measurement signal and the
distance at which said alarm unit activates based on an input
signal from said input device.
33. The following distance alarming apparatus according to claim
32, wherein the distance at which said alarm unit activates is
preset with respect to the following distance measured upon
receiving the input signal from said input device.
34. The following distance alarming apparatus according to claim
32, wherein the distance at which said alarm unit activates is
preset with respect to a speed of the subject vehicle measured upon
receiving the input signal from said input device.
Description
CROSS-REFERENCE TO RELATED APPLICATION
[0001] This application is related to copending application Ser.
No. 09/670,517, filed Sep. 26, 2000.
BACKGROUND OF THE INVENTION
[0002] 1. Field of the Invention
[0003] The present invention relates to a following distance
alarming apparatus for preventing collision of a vehicle equipped
with the following distance alarming apparatus (hereinafter, simply
referred to as "subject vehicle") against a vehicle running ahead
(hereinafter, simply referred to as "preceding vehicle") based on a
measurement of a distance from the subject vehicle to the preceding
vehicle or based on an output signal of a sensor working with an
apparatus controlling the speed of the subject vehicle, and a
displaying apparatus for displaying operating states of the
following distance alarming apparatus or a change of the following
distance.
[0004] 2. Description of Related Art
[0005] Vehicles such as automobiles move independently from each
other on a road. Therefore, there might occur an accident such as
bumping of vehicles. On a superhighway, in particular, the
frequency of rear-end collisions is higher and a high vehicle speed
is liable to invite serious results.
[0006] The major cause of collision is a following distance that is
too short. Under these circumstances, apparatuses have been
conventionally proposed for preventing a collision accident between
a subject vehicle and a preceding vehicle by using a following
distance measuring device. The applicant of the present invention
also proposed following distance informing apparatuses for
informing a driver of a change of the following distance in the
U.S. patent application Ser. No. 08/998,017, filed on Dec. 24,
1997, for which a patent has been granted as U.S. Pat. No.
6,119,068, and in the U.S. patent application Ser. No. 09/670,517,
filed on Sep. 26, 2000.
[0007] In a state where a plurality of vehicles are driving safely,
each driver repeats a series of operations against every change in
the following distance to prevent (rear-end) collision and others.
For example, if the following distance from the subject vehicle to
the preceding vehicle becomes small, a driver of the subject
vehicle would ease up on the accelerator pedal or depress the brake
pedal to reduce the speed of the subject vehicle. It is considered
that failure or delay in the series of such operations contributes
to the (rear-end) collision.
[0008] The related art described above advantageously allows a
driver to readily cope with a change of following distance by
informing the driver of the change. The related art, however, has a
problem that, when the following distance changes every moment, it
is difficult for the driver to instinctively apprehend the change.
In particular, a reliable apparatus has not become widespread to
date which can prevent rear-end collision and others by accurately
detecting failure or delay of the series of operations by a driver
due to inattentive driving or the like.
SUMMARY OF THE INVENTION
[0009] Based on the foregoing, an object of the present invention
is to provide a novel, following distance alarming apparatus which
checks, when the subject vehicle approaches the preceding vehicle,
a driver's reaction to the decrease of the following distance,
based on a change of output signal value of a sensor that generates
a signal in accordance with an operation of an accelerator pedal or
the like, and generates a warning sound when there is a possibility
of collision to prevent an accident from occurring.
[0010] Another object of the present invention is directed to
improvement of a conventional following distance alarming
apparatus, and is to provide a following distance alarming
apparatus which accurately responds to the following distance
changing every moment.
[0011] Yet another object of the present invention is to provide
each of the above-described apparatuses with an optimal displaying
apparatus, so as to provide a following distance alarming apparatus
which allows operating states of the apparatus to be apprehended at
a glance and is improved in practicability and reliability as a
guide to safe driving.
[0012] The following distance alarming apparatus according to an
aspect of the present invention for achieving the above objects is
a following distance alarming apparatus that is connected to
receive output signals of a following distance measuring device and
a sensor having an output signal value that changes in accordance
with a driver's operation for speed adjustment of a subject
vehicle. The apparatus includes a memory connectable to receive the
output signal value from the sensor and, when the output signal
value from the sensor remained unchanged for a prescribed time
period, storing a reference value for the output signal value of
the sensor based on the output signal value from the sensor, and a
first alarming circuit connectable to receive the output signal
values from the sensor and the following distance measuring device
and further connected to the memory, and determining a possibility
of collision of the subject vehicle with a preceding vehicle, based
on the following distance measured by the following distance
measuring device when the output signal value from the sensor
remained unchanged for the prescribed time period, the output
signal value from the sensor and the reference value stored in the
memory, to output a warning sound.
[0013] The following distance alarming apparatus according to
another aspect of the present invention is connected to receive
output signals of a following distance measuring device and a
sensor having an output signal value that changes in accordance
with a driver's operation for speed adjustment of a subject
vehicle. The apparatus includes a memory connectable to receive the
output signal of the following distance measuring device and, when
it is detected that the subject vehicle and a preceding vehicle
maintained a follow-up travel state for a prescribed time period
based on a following distance measured by the following distance
measuring device, storing a reference value determined based on the
output signal value from the sensor at that time, a first alarming
circuit connectable to receive the output signals of the sensor and
the following distance measuring device and further connected to
the memory, and, when the following distance measured by the
following distance measuring device coincided with an alarm
distance determined corresponding to the following distance at the
time of the follow-up travel state, determining a possibility of
collision of the subject vehicle with a preceding vehicle based on
the output signal value from the sensor and the reference value
stored in the memory, to output a warning sound, a circuit for,
when it is detected that the subject vehicle and a preceding
vehicle have maintained a follow-up travel state for a prescribed
time period again, causing the memory to store a reference value
determined based upon the output value of the sensor, and a second
alarming circuit, responsive to the output signal value from the
sensor having satisfied a prescribed relation with the reference
value and responsive to the following distance measuring device
having measured the alarm distance determined corresponding to the
following distance at the time of the follow-up travel state, for
determining the possibility of collision of the subject vehicle
with the preceding vehicle based on the output signal value from
the sensor and the reference value stored in the memory, to output
the alarm.
[0014] The following distance alarming apparatus according to a
further aspect of the present invention includes an alarm unit
outputting a warning sound, based on a following distance
measurement signal, when a following distance between a subject
vehicle and a preceding vehicle is reduced to a prescribed value, a
detecting unit detecting that an output signal from a sensor having
an output signal value changing in accordance with a driver's
operation for control of a speed of the subject vehicle has
remained unchanged for a prescribed time period, and a display unit
displaying the following distance at which the alarm activates when
the detecting unit detected that the output signal of the sensor
had remained unchanged for the prescribed time period.
[0015] The following distance alarming apparatus according to a
still further aspect of the present invention includes an alarm
unit outputting a warning sound, based on a following distance
measurement signal, when a following distance between a subject
vehicle and a preceding vehicle is decreased to a prescribed value,
a detecting unit detecting that a value of the following distance
measurement signal has remained unchanged for a prescribed time
period, and a display unit displaying the following distance at
which the alarm unit activates when the detecting unit detected
that the value of the following distance measurement signal had
remained unchanged for the prescribed time period.
[0016] The following distance alarming apparatus according to yet
another aspect of the present invention includes an alarm unit
outputting a warning sound, based on a following distance
measurement signal, when a following distance between a subject
vehicle and a preceding vehicle is decreased to a prescribed value,
a detecting unit detecting that an output signal from a sensor
having an output signal value changing in accordance with a
driver's operation for control of a speed of the subject vehicle
has remained unchanged for a prescribed time period, and a display
unit displaying a difference between the following distance
indicated by the following distance measurement signal and the
following distance at which the alarm unit activates when the
detecting unit detected that the output signal of the sensor had
remained unchanged for the prescribed time period.
[0017] The following distance alarming apparatus according to a
further aspect of the present invention includes an alarm unit
outputting a warning sound, based on a following distance
measurement signal, when a following distance between a subject
vehicle and a preceding vehicle is decreased to a prescribed value,
a detecting unit detecting that a value of the following distance
measurement signal has remained unchanged for a prescribed time
period, and a display unit displaying a difference between the
following distance indicated by the following distance measurement
signal and the following distance at which the alarm unit activates
when the detecting unit detected that the value of the following
distance measurement signal had remained unchanged for the
prescribed time period.
[0018] The following distance alarming apparatus according to a
still further aspect of the present invention includes an alarm
unit outputting a warning sound, based on a following distance
measurement signal, when a following distance between a subject
vehicle and a preceding vehicle is decreased to a prescribed value,
an input circuit provided to the subject vehicle, and a display
unit displaying a distance at which the alarm unit activates.
[0019] The following distance alarming apparatus according to an
additional aspect of the present invention includes an alarm unit
outputting a warning sound, based on a following distance
measurement signal, when a following distance between a subject
vehicle and a preceding vehicle is decreased to a prescribed value,
an input circuit provided to the subject vehicle, and a display
unit displaying a difference between a distance to the preceding
vehicle indicated by the following distance measurement signal and
a distance at which the alarm unit activates based on an input
signal from the input circuit.
[0020] The foregoing and other objects, features, aspects and
effects of the present invention will become more apparent from the
following detailed description of the present invention with
reference to the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
[0021] FIG. 1 is a block diagram showing an electrical structure of
a following distance alarming apparatus according to a first
embodiment to which the present invention is applied.
[0022] FIG. 2 schematically shows a distance relation between a
preceding vehicle and a subject vehicle to explain the workings of
the following distance alarming apparatus according to the first
embodiment.
[0023] FIG. 3 shows a screen arrangement of a following distance
displaying apparatus of the present invention, which is displayed
on a liquid crystal display.
[0024] FIG. 4 is a flow chart showing an operation of the following
distance alarming apparatus according to the first embodiment.
[0025] FIG. 5 is a flow chart showing an operation of a following
distance alarming apparatus according to a second embodiment to
which the present invention is applied.
[0026] FIG. 6 schematically shows a distance relation between a
preceding vehicle and a subject vehicle to explain the workings of
a collision predicting apparatus according to a third embodiment to
which the present invention is applied.
[0027] FIG. 7 is a flow chart showing an operation of the collision
predicting apparatus according to the third embodiment.
[0028] FIG. 8 is a flow chart showing an operation of a following
distance alarming apparatus according to a fourth embodiment to
which the present invention is applied.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0029] In the following, embodiments of the present invention will
be described in detail with reference to the accompanying
drawings.
[0030] First Embodiment
[0031] With reference to FIG. 1, the collision alarming apparatus
according to the first embodiment is mounted on a subject vehicle
for use. It includes a following distance measuring device 1 for
measuring a distance from the subject vehicle to a preceding
vehicle, which may be a radar system that measures the following
distance using a laser beam or a millimeter wave, or a system that
measures the following distance by image processing.
[0032] The collision alarming apparatus further includes: a
microcomputer 2 receiving an output of following distance measuring
device 1; an operation panel 9 provided in the vicinity of a
driver's seat for a driver to operate microcomputer 2; a following
distance displaying apparatus 8 receiving a signal indicative of a
following distance from microcomputer 2 and displaying the
following distance; an alarm 10 receiving an alarm signal from
microcomputer 2 and generating a warning sound; and an input device
11 having a switch used by the driver to instruct microcomputer 2
to take out a measurement value of the following distance measured
by following distance measuring device 1. The switch is a press
button in the present embodiment.
[0033] The output of following distance measuring device 1 is
applied to microcomputer 2. Microcomputer 2 also receives outputs
from a sensor 4, a brake sensor 6, and a speed sensor 7. Sensor 4
outputs a signal that changes proportional to the amount or
pressure of depression of an accelerator pedal 3. In this
embodiment, it is a throttle opening sensor that detects the degree
of opening of a throttle valve. It can be said that both the
accelerator pedal and the brake are apparatuses for controlling the
speed of the subject vehicle.
[0034] Microcomputer 2 has a well-known structure including a CPU
(Central Processing Unit) and a memory (30). The memory (30) is
preferably non-volatile, although it may be volatile as long as a
power source is backed up. Microcomputer 2 realizes the collision
distance alarming apparatus by executing a program having a control
structure shown by a flow chart which will be described below.
[0035] Brake sensor 6 detects when a brake pedal 5 is stepped on.
Speed sensor 7 outputs, as a speed signal, a wheel speed pulse in
accordance with the amount of rotation of an encoder wheel provided
at a rotation axis of a tire, for example. When an automobile is
equipped with an anti-lock brake system, its output may be used as
the speed signal. Alternatively, a signal output from a speed
sensor for a speedometer may be used. It can be said, in a broad
sense, that speed sensor 7 also works with the apparatus for speed
control.
[0036] Microcomputer 2 conducts processing which will be described
later based on a signal from each of the above-described detectors
or sensors, and further conducts processing to display the result
on displaying apparatus 8. In addition, when determined that the
subject vehicle might collide with a vehicle running ahead,
microcomputer 2 activates alarm 10 to remind the driver of the
subject vehicle of the possibility of collision.
[0037] The operation for changing an initial set value and others
for microcomputer 2 can be executed via operation panel 9. Further,
the driver is allowed to arbitrarily execute the processing which
will be described later by pressing the push button or switch of
input device 11.
[0038] FIG. 2 shows a distance relation between the subject vehicle
and the preceding vehicle to explain the workings of the following
distance alarming apparatus of the first embodiment. In FIG. 2, by
way of example, following distance measuring device 1 mounted to
the subject vehicle has measured a following distance of 22 meters
to the preceding vehicle.
[0039] FIG. 3 shows a screen of a liquid crystal display 12 of
displaying apparatus 8 that displays operating states of following
distance alarming apparatus of the first embodiment. With reference
to FIG. 3, liquid crystal display 12 includes a following distance
display portion 13 for digitally displaying a following distance to
the preceding vehicle measured by following distance measuring
device 1 on liquid crystal display 12, and an alarm distance
display portion 14 for digitally displaying a distance
(hereinafter, simply referred to as "alarm distance") at which
alarm 10 activates when there is danger of (rear-end) collision
between the subject vehicle and the preceding vehicle.
[0040] In the example illustrated in FIG. 3, following distance
display portion 13 displays the numeric value "22" reflecting the
situation illustrated in FIG. 2. Alarm 10 activates when there is
danger of collision of the subject vehicle with the preceding
vehicle, and alarm distance display portion 14 digitally displays
the distance at which alarm 10 activates.
[0041] Liquid crystal display 12 further includes an approach
distance display portion 15 for digitally displaying a difference
between the numeric value displayed at following distance display
portion 13 and the numeric value displayed at alarm distance
display portion 14 (hereinafter, this will be simply referred to as
"approach distance"). Approach distance display portion 15 displays
how many meters are left before the current following distance
measured by following distance measuring device 1 reaches the
following distance displayed at alarm distance display portion
14.
[0042] With reference to FIG. 3, liquid crystal display 12 further
includes: a scale 16 indicating values corresponding to output
signal values from sensor 4 as the speed control apparatus of the
subject vehicle; a zone portion 17 provided at the center of scale
16 and highlighted by pattern or color different from that of scale
16; a pointer 18 indicating a value corresponding to an output
signal from sensor 4; a speed display portion 19 responsive to a
signal from speed sensor 7 of the subject vehicle for digitally
displaying the running speed, and a tachometer 20 displaying the
engine speed as a bar graph.
[0043] Scale 16 displays graduations of output signal values from
sensor 4, which is, e.g., a throttle valve opening sensor or an
engine speed sensor.
[0044] Zone portion 17 shows an allowable range of a difference
between the output signal value from sensor 4 and a predetermined
reference value, which is used to determine whether the operation
of the following distance alarming apparatus should be stopped,
whether there is a possibility of collision, and others. A width of
zone portion 17 (or allowable range for the difference of the
values) can be increased or decreased arbitrarily by a modulator
(not shown) provided at operation panel 9, which allows criteria
for determination of danger of collision to be adjusted to driver's
driving characteristics.
[0045] Pointer 18 indicating a value corresponding to the output
signal value from sensor 4 moves rightward and leftward along the
scale 16 as the output signal value changes.
[0046] FIG. 4 is a flow chart illustrating the operation of the
following distance alarming apparatus of the first embodiment. Its
structure and workings will now be described with reference to
aforementioned FIGS. 1-3. In step S1, following distance measuring
device 1 mounted on the subject vehicle measures a following
distance to the preceding vehicle. In the following description, it
is assumed that the following distance is 22 meters, as shown in
FIG. 2. The numeric value "22" is indicated at following distance
display portion 13 on liquid crystal display 12 of displaying
apparatus 8.
[0047] Output signal values from sensor 4 are measured constantly.
Microcomputer 2 constantly checks whether the output signal values
measured have remained unchanged for a predetermined period of time
(e.g., for two seconds) (step S2). For example, assuming that the
output signal from sensor 4 at a certain time point has an absolute
value of 30, it is examined whether the output signals have
maintained the value of 30 for the predetermined time period. This
predetermined time period can be changed arbitrarily by the
modulator on operation panel 9, to be adjusted to driver's driving
characteristics.
[0048] Determination whether a predetermined time has elapsed from
when the subject vehicle started travelling right behind the
preceding vehicle (hereinafter, this state is referred to as
"follow-up travel state") may be made in the following manner.
First, a following distance to the preceding vehicle is measured by
following distance measuring device 1. The following distance is
measured again after a lapse of the predetermined time. A
difference between the following distance initially measured and
the one measured later is examined to determine whether a
predetermined time has elapsed from when the preceding vehicle and
the subject vehicle entered the follow-up travel state. In other
words, if the measured following distance remained unchanged for a
predetermined time, it is determined that the predetermined time
has elapsed from when the follow-up travel state was attained.
[0049] When detected that the output signal values from sensor 4
remained unchanged for a predetermined time period in step S2,
microcomputer 2 reads the output signal value from sensor 4 at that
time, and sets a reference range for the output signal value based
on the relevant value. The reference range is stored in a memory
(30) or a register in microcomputer 2. For example, if the relevant
output signal value from sensor 4 has an absolute value of 30 and
an allowable range is predetermined as .+-.5, then the reference
range for the output signal value is set from 25 to 35, and is
stored in the memory (30) within microcomputer 2.
[0050] Furthermore, as shown in the display screen of liquid
crystal display 12 in FIG. 3, zone portion 17 of scale 16 and
pointer 18 indicative of a change of the output signal value from
sensor 4 are lighted for display (step S3). The width (range) of
zone portion 17 displayed corresponds to the reference range for
the output signal value that has been set and stored in
microcomputer 2 as described above. When initially lighted, pointer
18 is located at the center of zone portion 17 in scale 16. It then
starts moving rightward and leftward along scale 16, in accordance
with the change of the output signal value from sensor 4. More
specifically, pointer 18 moves to the + side of scale 16 when the
output signal value from sensor 4 becomes larger than the output
signal value that remained unchanged in step 2, while it moves to
the - side when the value becomes smaller. When pointer 18 comes
out of zone portion 17 (or the reference range set for the output
signal value), the light for the display of pointer 18 is put off,
or the pattern or color of pointer 18 is changed, to make it easily
perceived by the driver (e.g. the pointer which was painted out
when it was within zone portion 17 is changed to an outline pointer
when it comes out of the zone). In place of, or in addition to,
such a change of the displaying manner of pointer 18, the
displaying manner of zone portion 17 may be changed in the similar
manner, or the light thereof may be put off.
[0051] Further, in step S3, the alarm distance preset corresponding
to the following distance of 22 meters measured at the time when
the output signal values from sensor 4 remained unchanged for the
predetermined time period is displayed at alarm distance display
portion 14 of liquid crystal display 12. The alarm distances are
preset corresponding to the respective following distances measured
at the aforementioned time, and stored in the memory (30) in
microcomputer 2. More specifically, the distance at which alarm 10
activates in step S7 based on the determination of the possibility
of collision in step S6 is displayed.
[0052] In the example illustrated in FIG. 2, the following distance
measured when the output signal values from sensor 4 remained
unchanged for a predetermined time period is 22 meters. It is now
assumed that a distance of, e.g., 17 meters is prestored
corresponding to the following distance of 22 meters in the memory
(30) of microcomputer 2. In this case, the numeric value "17" is
displayed at alarm distance display portion 14, which remains
unchanged until the flow currently in operation in the following
distance alarming apparatus is cleared (including the clear in the
middle course of operation). The alarm distances preset
corresponding to the respective measured distances can be changed
arbitrarily by the modulator on operation panel 9, allowing
adaptation of the alarm distance to driver's driving
characteristics.
[0053] At approach distance display portion 15 provided adjacent to
alarm distance display portion 14, a numeric value (e.g., "5")
representing a difference between the numeric value (e.g., "22")
displayed at aforementioned following distance display portion 13
and the numeric value (e.g., "17") displayed at alarm distance
display portion 14 is displayed. The numeric value displayed at
approach distance display portion 15 allows the driver to recognize
with ease that reduction of the following distance by 5 more meters
will cause it to reach the alarm distance of 17 meters and thus
alarm 10 will activate. If another car interrupts between the
preceding vehicle and the subject vehicle and the distance becomes,
for example, 14 m within the alarm distance of 17 meters, then the
numeric value "-3" will be displayed at approach distance display
portion 15.
[0054] The approach distance being preset may be varied according
to the distance displayed at following distance display portion 13,
or according to the magnitude of the following distance at which
the output signal values from sensor 4 remained unchanged for a
predetermined time period. For example, a long approach distance
of, e.g., 20 meters may be set when the following distance at which
the follow-up travel state was attained is long, e.g.,
approximately 100 meters. Conversely, a short approach distance of,
e.g., 3 meters may be set when the following distance at the
relevant time is short, e.g., approximately 15 meters.
[0055] Thereafter, as the distance between the subject vehicle and
the preceding vehicle decreases, the numeric value "22" indicated
at following distance display portion 13 is decremented to 21, 20,
19 . . . , while the numeric value "17" indicated at alarm distance
display portion 14 remains unchanged until the flow in operation is
cleared. Accordingly, the numeric value "5" indicated at approach
distance display portion 15 is also decremented to 4, 3, 2 . . . in
line with the change of the numeric value at following distance
display portion 13.
[0056] In step S4, it is determined whether the following distance
between the preceding vehicle and the subject vehicle falls within
the alarm distance of 17 meters. If so, the control proceeds to
step S5. More specifically, the control proceeds to step S5 when
the numeric value indicated at approach distance display portion 15
decreases to 0, or it becomes a negative numeric value because
another car has cut in.
[0057] In step S5, the output signal value from sensor 4 is
measured, and in step S6, it is examined whether the output signal
value measured in step S5 falls within the reference range for the
output signal value set and stored in step S3. Then, based on
whether the signal value is within the predetermined range, it is
determined whether there is a chance of collision. If the signal
value is within the predetermined range, it is understood that the
driver of the subject vehicle has not taken appropriate measures,
such as releasing accelerator pedal 3, although the subject vehicle
has come closer to the preceding vehicle. Thus, in order to inform
the driver of danger of collision, alarm 10 gives a warning sound
for a predetermined period of time, and an alarm lamp is turned on
and off on liquid crystal display 12 in step S7. Instead of the
alarm lamp, the numeric value of "0" or the negative value
initially displayed at approach distance display portion 15 may be
flashed on and off for a predetermined period of time.
[0058] The determination in step S6 as to whether the output signal
value is within the allowable range can be made by the driver by
visually checking whether pointer 18 is located within zone portion
17 of scale 16 displayed on liquid crystal display 12. The range of
zone portion 17 (or the reference range for the output signal
value) may be preset to vary in accordance with the magnitude of
the output signal value which was determined to have remained
unchanged for a predetermined time period in step S2.
[0059] After alarm 10 operates for the predetermined time period in
step S7, or if the output signal value read in step S6 for
determination of the chance of collision is outside the allowable
range, the operation of the collision alarming apparatus is cleared
(step S8) to return to the starting point.
[0060] Then, the above-described flow is executed again based on
the distance measured by following distance measuring device 1 and
the output signal value from sensor 4.
[0061] As explained above, according to the first embodiment,
likelihood of collision is determined based on driver's reaction to
a decrease of the following distance between the subject vehicle
and the preceding vehicle. More specifically, the possibility of
collision is determined, based on the output signal value from
sensor 4 that changes corresponding to the driver's operation of
accelerator pedal 3, by examining whether the driver has taken
appropriate measures against the decrease of the following
distance, through measurement of the change of the output signal
value from sensor 4 in accordance with the decrease of the
following distance.
[0062] In the first embodiment, the displaying manner of pointer 18
or zone portion 17 was made to change or the light therefor was
turned off when the output signal value from sensor 4 came out of
the reference range for the output signal value set and stored in
step S3 (step S6), or when pointer 18 came off the range of zone
portion 17. Alternatively, the light for the numeric value
displayed at alarm distance display portion 14 or approach distance
display portion 15 may be turned off, or displaying manner thereof,
such as size, color or pattern, may be changed, to inform the
driver of the relevant situation.
[0063] Second Embodiment
[0064] Next, a following distance alarming apparatus of the second
embodiment will be described with reference to the flow chart of
FIG. 5. The apparatus of the second embodiment is identical to that
of the first embodiment in terms of the electrical structure, the
distance relation between the preceding vehicle and the subject
vehicle, and the contents on the screen of liquid crystal display
12 of following distance displaying apparatus 8, as explained above
with reference to FIGS. 1-3. Thus, the same or corresponding
components (portions) are denoted by the same reference character,
and detailed description thereof will not be repeated where
appropriate.
[0065] In the flow chart of FIG. 5, in step T1, a distance from the
subject vehicle to the preceding vehicle is measured by following
distance measuring device 1 mounted on the subject vehicle. Here,
the distance is assumed to be 22 meters, as shown in FIG. 2. The
numeric value "22" is displayed at following distance display
portion 13 on liquid crystal display 12. Microcomputer 2
determines, based on the measured distance of 22 meters, whether
the preceding vehicle and the subject vehicle have maintained the
follow-up travel state for a predetermined time period (e.g., 2
seconds) (step T2). This predetermined time period can be changed
arbitrarily through the modulator on operation panel 9 to be
adapted to the driver's driving characteristics.
[0066] The determination as to whether the follow-up travel state
has been maintained for the predetermined time period may be made
in the following manner. First, a following distance to the
preceding vehicle is measured by following distance measuring
device 1. The following distance is measured again after a lapse of
the predetermined time. A difference between the following distance
initially measured and the one measured later is then examined, to
determine whether the follow-up travel state was maintained for the
predetermined time period. Alternatively, it is possible to examine
how long the following distances equal to the one initially
measured were measured continuously, or how long the relevant
distance was maintained. In this case, the determination whether
the follow-up travel state was maintained for the predetermined
time period can be made by checking whether the time period during
which the relevant distance was maintained reached the
predetermined time period.
[0067] When the following distance to the preceding vehicle
measured remained unchanged for a predetermined time period, it is
determined that the follow-up travel state was maintained for the
predetermined time period. Thus, steps T2, T11 of the flow chart in
FIG. 5 can be changed to read: "The measured following distance
remained unchanged for a predetermined time period?" The same
applies to steps P2, P8 of the flow chart in FIG. 7, which will be
described later.
[0068] When detected that the follow-up travel state was maintained
for a predetermined time period in step T2, microcomputer 2 reads
the output signal value from sensor 4 at that time. A reference
range for the output signal value is set based on this value, and
stored in a memory (30) within microcomputer 2 (step T3). For
example, if the relevant output signal value from sensor 4 has an
absolute value of 30 and an allowable range is predetermined as
.+-.5, then the reference range for the output signal value is set
from 25 to 35, and is stored in the memory (30) within
microcomputer 2. This reference range for the output signal value
stored is employed for determination of a chance of collision,
which will be described later.
[0069] In step T3, the alarm distance having been preset
corresponding to the following distance of 22 meters at the time
when the follow-up travel state was detected in step T2 is
displayed at alarm distance display portion 14 on liquid crystal
display 12 shown in FIG. 3. The alarm distances are preset for
respective following distances which were initially measured and
with which the follow-up travel state was maintained for a
predetermined time period, and are stored in the memory (30) within
microcomputer 2. That is, the distance at which alarm 10 activates
in step T9 according to the determination of likelihood of
(rear-end) collision made in step T8 is displayed.
[0070] Assume that a distance of, e.g., 17 meters is prestored in
the memory (30) of microcomputer 2 with respect to the following
distance of 22 meters initially measured and employed for the
determination whether the follow-up travel state was maintained for
a predetermined time period. In this case, the numeric value "17"
is displayed on alarm distance display portion 14, and is kept
unchanged until the flow currently in operation is cleared
(including the clear in the middle course of operation).
[0071] The alarm distances preset corresponding to the respective
following distances at which the follow-up travel state was
maintained for a predetermined time period can be changed
arbitrarily by the modulator on operation panel 9. For example, the
aforementioned alarm distance of 17 meters for the following
distance of 22 meters may be increased to 19 meters or decreased to
15 meters. This allows adaptation of the alarm distance to driver's
driving characteristics.
[0072] At approach distance display portion 15 provided adjacent to
alarm distance display portion 14, a numeric value (e.g., "5")
representing a difference between the numeric value (e.g., "22")
displayed at following distance display portion 13 and the numeric
value (e.g., "17") displayed at alarm distance display portion 14
is displayed. The numeric value displayed at approach distance
display portion 15 allows the driver to recognize with ease that
reduction of the following distance by 5 more meters will cause it
to reach the alarm distance of 17 meters and thus alarm 10 will
activate. Assume that another car cuts in between the preceding
vehicle and the subject vehicle. In this case, if the distance from
the subject vehicle to the vehicle that has cut in is within the
alarm distance of 17 meters, the relevant numeric value is
displayed on approach distance display portion 15. For example, if
the relevant distance is 14 meters, the numeric value "-3" is
displayed at approach distance display portion 15.
[0073] The approach distance being preset may be varied according
to the distance displayed at following distance display portion 13,
or according to the magnitude of the following distance at which
the follow-up travel state was attained. For example, a long
approach distance of, e.g., 20 meters may be set when the following
distance at which the follow-up travel state was attained is long,
e.g., approximately 100 meters. Conversely, a short approach
distance of, e.g., 3 meters may be set for the short following
distance of, e.g., approximately 15 meters.
[0074] In step T3, as shown in the display screen of liquid crystal
display 12 in FIG. 3, zone portion 17 and pointer 18 indicative of
a change of the output signal value from sensor 4 are lighted for
display. The width (range) of zone portion 17 corresponds to the
reference range (from 25 to 35) for the output signal value that
has been set and stored in microcomputer 2 as described above. When
initially lighted, pointer 18 is located at the center of zone
portion 17. It then starts moving rightward and leftward along
scale 16, in accordance with the change of the output signal value
from sensor 4. More specifically, pointer 18 moves to the + side of
scale 16 when the output signal value from sensor 4 becomes greater
than that measured when the follow-up travel state was maintained
for a prescribed time period in step T2, while it moves to the -
side when it becomes smaller.
[0075] If the output signal value from sensor 4 subsequently
measured falls within the reference range having been set (step
T4), the system flow proceeds to step T6. If the output signal
value from sensor 4 is out of the reference range, i.e., if pointer
18 comes off the range of zone portion 17, then the process goes to
step T5. In step T5, the numeric values of alarm distance and
approach distance displayed in step T3 are erased, or displaying
manner thereof is changed (by changing, e.g., the color, size or
pattern of display). This allows the driver to easily recognize
that, if the current state remains unchanged, alarm 10 will not
give a warning sound even if the distance between the subject
vehicle and the preceding vehicle reduces to the alarm
distance.
[0076] When pointer 18 comes off the range of zone portion 17,
displaying manner of pointer 18 is also changed by changing color,
size or pattern thereof. For example, the pointer 18 which was
painted out when it was within zone portion 17 is changed to an
outline pointer 18 when it comes out of zone portion 17. The
displaying manner of zone portion 17 can also be changed in the
similar manner.
[0077] If the output signal value from sensor 4 comes to fall
within the reference range having been set (i.e., pointer 18 comes
within zone portion 17) before the flow is cleared in step T10,
then the numeric values of alarm distance and approach distance
and/or pointer 18 is displayed again, or displaying manner thereof
returns to the initial state.
[0078] The output signal values from sensor 4 are measured
constantly. As the distance between the subject vehicle and the
preceding vehicle decreases while the output signal values from
sensor 4 remain within the reference range set, the numeric value
"22" indicated at following distance display portion 13 is
decremented to 21, 20, 19 . . . The numeric value "17" indicated at
alarm distance display portion 14, however, remains unchanged until
the flow in operation is cleared. Accordingly, the numeric value
"5" indicated at approach distance display portion 15 is also
decremented to 4, 3, 2 . . . in line with the change of the numeric
value at following distance display portion 13.
[0079] In step T6, when the following distance from the subject
vehicle to the preceding vehicle falls within the alarm distance
range of 17 meters, or, the numeric value displayed at approach
distance display portion 15 comes to 0 or a negative value due to
another car having cut in, then the control proceeds to step T7. In
step T7, microcomputer 2 reads the output signal value from sensor
4 at that time. In step T8, it is determined whether the read value
falls within the reference range for the output signal value set
and stored in step T3. If the value is within the reference range,
it is understood that the driver of the subject vehicle has not
taken appropriate measures, such as releasing accelerator pedal 3,
although the subject vehicle has come closer to the preceding
vehicle. Thus, in order to inform the driver of danger of
collision, alarm 10 gives a warning sound for a predetermined
period of time, and an alarm lamp on liquid crystal display 12 is
flashed on and off in step T9.
[0080] After alarm 10 operates for the predetermined time in step
T9, or when the output signal value from sensor 4 measured in step
T8 is out of the reference range, the operation of the following
distance alarming apparatus is cleared (step T10), and the control
returns to the starting point. The flow is then resumed based on
the following distance measured at that time.
[0081] In step T6, if the distance to the preceding vehicle
measured by following distance measuring device 1 is greater than
the alarm distance and is, e.g., 20 meters, then the control
proceeds to step T11. In step T11, microcomputer 2 determines,
based on this newly measured distance of 20 meters, whether the
follow-up travel state has been maintained for a predetermined time
period, as in step T2. If the follow-up travel state has been
maintained for the predetermined time period with this newly
measured distance of 20 meters, then in step T12, the reference
range for the output signal value stored in the previous step T3 is
cancelled, and display of the numeric values at alarm distance
display portion 14 and approach distance display portion 15 and of
zone portion 17 and pointer 18 are all erased.
[0082] The control then returns to step T3, where a new reference
range for the output signal values is set and stored based on the
output signal value from sensor 4 at the time when the follow-up
travel state was maintained for a predetermined time period with
the following distance of 20 meters. Alarm distance display portion
14 also displays the alarm distance that was preset corresponding
to the distance of 20 meters. If the alarm distance of 15 meters is
set therefor, the numeric value "15" is displayed at the display
portion 14. In response, the numeric value of "5" is displayed at
approach distance display portion 15. Zone portion 17 and pointer
18 are again displayed. The subsequent procedures are as described
above.
[0083] The following distance newly employed for determination of
the follow-up travel state in step T11 was set to 20 m above, not
to 21 m as the direct neighbor of the initially measured 22 m, due
to the following reason. In the present embodiment, in
determination of the follow-up travel state of the preceding
vehicle and the subject vehicle, a prescribed width of margin is
allowed above and below the initially measured distance, and the
following distance within the margin is determined unchanged. The
width may be, e.g., .+-.1 m, although it is not limited thereto. In
the present embodiment, a margin of .+-.1 m is set for the
following distance of 22 m measured in step T1. Thus, the distance
from 21 m to 23 m is considered unchanged when the follow-up travel
state with respect to the initially measured distance of 22 m is
being examined. If the distance between the preceding vehicle and
the subject vehicle decreases to, e.g., 20 m, then the distance for
determination of the follow-up travel state becomes from 19 m to 21
m; .+-.1 m of the distance of 20 m. If the distance further
decreases to 18 m, then the target range becomes from 17 m to 19 m.
Accordingly, in the present embodiment, when the subject vehicle
comes closer to the preceding vehicle than in the state with the
following distance of 22 m, the following distance that should be
considered next is 20 m.
[0084] This however does not apply to the case where the follow-up
travel state is once detected in step T2 and the state is newly
detected in step T11. In this case, the detection in step T11 is
made with respect to a newly measured distance with a prescribed
width of margin as described above. Thus, it may be 22 m, the same
as in step T2, or may be 23 m or 21 m, the direct neighbor
thereof.
[0085] Although the second embodiment has been described above,
various modifications thereof are conceivable. In step T4 of the
second embodiment, the display of the alarm distance or approach
distance or pointer 18 is erased, or displaying manner thereof is
changed (step T5), even if the output signal value from sensor 4
comes out of the reference range set therefor only instantaneously.
Such execution of step T5 every time the output signal value
instantaneously comes off the reference range may be cumbersome for
the driver. Thus, a time factor may be added to the determination
in step T4 such that determination is made as to whether the output
signal values from sensor 4 have remained out of the reference
range for a predetermined time period. This modification has an
advantage to restrict the changes in display.
[0086] Further, in the second embodiment, when the output signal
value from sensor 4 measured after step T3 comes off the set
reference range (step T4), the display of the alarm distance,
approach distance or pointer 18 is erased, or displaying manner
thereof is changed (step T5), while the flow itself of the alarming
apparatus continues. Alternatively, the system configuration may be
changed such that, when the output signal value comes off the
reference range in step T4, the flow proceeds to step T10 and the
entire system operation is cleared (cancelled).
[0087] As explained above, according to the second embodiment,
every time it is detected that the subject vehicle and the
preceding vehicle have maintained the follow-up travel state for a
predetermined time period, the operating states of the following
distance alarming apparatus are changed based on the output signal
value from sensor 4 or the following distance measured at that
time. Thus, it becomes possible to realize a collision preventing
apparatus that can accurately cope with travelling conditions.
Since the output signal values from sensor 4 are monitored
constantly, it is possible to allow the driver to immediately
determine whether the following distance alarming apparatus
correctly functions in accordance with the change in operation of
accelerator pedal 3 working with sensor 4, or according to the
change in driver's operation of the subject vehicle, by turning off
the light for display of the numeric value of approach distance or
alarm distance, or by changing displaying manner thereof.
Accordingly, practicability of the apparatus is improved.
[0088] Third Embodiment
[0089] Next, a collision predicting apparatus of the third
embodiment will be described. Since the third embodiment is applied
to collision predicting apparatuses already proposed in the art,
those conventional apparatuses will be outlined first.
[0090] In the conventional collision predicting apparatuses, a
first reference distance and a second reference distance closer to
the subject vehicle than the first distance are preset with respect
to the distance between the subject vehicle and the preceding
vehicle that is measured by following distance measuring device 1.
A relative speed between the subject vehicle and the preceding
vehicle is obtained from a time period from the detection of a
distance between the two vehicles equaling the first reference
distance until the detection of a distance within the second
reference distance. When the relative speed is faster than a
predetermined speed, it is determined that there is danger of
collision, so that alarm 10 is activated. The relative speed
between the subject vehicle and the preceding vehicle can also be
determined based on whether a distance measured after a lapse of a
fixed time from when the first reference distance was detected
falls within the second reference distance.
[0091] FIG. 6 shows a distance relation between the preceding
vehicle and the subject vehicle to explain the operation of the
collision predicting apparatus. In FIG. 6, reference distances for
obtaining a relative speed are preset for respective distances. For
example, divisional areas such as A area, B area, C area . . . are
provided, and information (reference distances) specifying these
areas is preset and stored in microcomputer 2. In the example
illustrated in FIG. 6, in the A area, the first reference distance
denoted by A-1 is set to 34 meters, and the second reference
distance denoted by A-2 is set to 30 meters. In the B area, the
first reference distance B-1 is set to 31 meters and the second
reference distance B-2 is set to 27 meters. In the C area, the
first reference distance C-1 is set to 28 meters and the second
reference distance C-2 is set to 24 meters. Microcomputer 2
calculates the relative speed, based on a time from the detection
of the first reference distance to the detection of the second
reference distance at each area, to determine presence/absence of a
possibility of collision.
[0092] FIG. 7 is a flow chart of the third embodiment, and its
operation will be described with reference to the distance relation
in FIG. 6. Since the screen arrangement of liquid crystal display
12 is the same as that of the second embodiment, the same or
corresponding portions are denoted by the same reference character,
and detailed description thereof will not be repeated here. In step
P1, a distance to the preceding vehicle is measured by following
distance measuring device 1 and the distance is displayed at
following distance display portion 13 on liquid crystal display 12.
Now assume by way of example that the distance is 35 meters as
shown in FIG. 6. The numeric value "35" is displayed at following
distance display portion 13. Then, microcomputer 2 determines,
based on the distance of 35 meters, whether the preceding vehicle
and the subject vehicle have maintained the follow-up travel state
for a fixed time period, as in the second embodiment (step P2). If
so, the control proceeds to step P3. The way of obtaining the
follow-up travel state and the distance employed therefor may be
the same as those explained in the second embodiment.
[0093] In step P3, a distance at which alarm 10 of the collision
predicting apparatus activates is indicated at alarm distance
display portion 14 of liquid crystal display 12. This distance has
been preset with respect to the distance measured when it was
determined that the follow-up travel state was maintained for the
predetermined time period. In the example shown in FIG. 6, for the
measured distance of 35 meters, the numeric value of 30 meters
being the second reference distance in the A area is indicated at
alarm distance display portion 14. This numeric value remains
unchanged until the system in operation is cleared.
[0094] Furthermore, the numeric value "5" is indicated at approach
distance display portion 15, which represents the difference
between the numeric value "35" indicated at following distance
display portion 13 and the numeric value "30" indicated at alarm
distance display portion 14. This allows the driver to visually
confirm that, when the vehicles come closer by 5 more meters from
the currently measured distance of 35 meters, the following
distance will reach the distance of 30 meters at which alarm 10
activates. The respective numeric values displayed on liquid
crystal display 12 are changed according to the following distances
subsequently measured, as described in the first embodiment, and
determination is made in succession, based on the measured
distances, whether the follow-up travel state has been attained
(steps P2, P8). If a relative speed obtained by a time from when a
measured distance becomes the first reference distance of 34 meters
in the A area until it falls within a range of the second reference
distance is faster than a predetermined speed, it is determined
that there is danger of collision (step P5). In this case, after
alarm 10 operates in step P6, as in the second embodiment, the
clear processing is conducted (step P7), and the control returns to
the starting point.
[0095] In steps P2 and P8, microcomputer 2 determines in succession
whether the preceding vehicle and the subject vehicle have
maintained the follow-up travel state, based on the measured
distance changed. Here, if, e.g., the following distance of 35
meters measured in step P1 decreased to 32 meters because of the
subsequent approach and the follow-up travel state was maintained
for a predetermined time period with this distance ("YES" in step
P8), then the control proceeds to step P9. In step P9, the numeric
value of 30 at alarm distance display portion 14 and the numeric
value at approach distance display portion 15 having been displayed
from step P3 are erased. Further, calculation of the relative speed
in the A area for causing the collision predicting apparatus to
operate is also cleared. At the same time, the collision predicting
apparatus starts operation now in the B area that has been preset
for the distance of 32 meters at which the follow-up travel state
was newly detected. The numeric value "27" at which alarm 10
activates, the same value as the second reference distance in the B
area, is indicated at alarm distance display portion 14. The
numeric value "5" representing a difference between the measured
distance of 32 meters and the alarm distance of 27 meters is
indicated at approach distance display portion 15.
[0096] As explained above, the third embodiment is directed to the
improvement of the collision predicting apparatus that determines
presence/absence of danger of collision between the subject vehicle
and the preceding vehicle, based on the relative speed therebetween
obtained from the times when the distance between the vehicles
coincided with respective ones of two preset reference distances.
More specifically, in the third embodiment, when the follow-up
travel state has continued for a predetermined time, the alarm
distance at which alarm 10 of the collision predicting apparatus
activates, predetermined corresponding to the following distance at
that time, and the approach distance representing the difference
between the currently measured following distance and the alarm
distance are indicated on liquid crystal display 12. When detected
that the follow-up travel state has been maintained for a
predetermined time period with a new following distance based on
the following distances measured in succession, the area where the
collision predicting apparatus operated during the previous
follow-up travel state and the display of the alarm distance at
that time and approach distance are erased (cleared). At the same
time, determination is made whether there is a possibility of
collision in the area where the collision predicting apparatus now
operates, predetermined corresponding to the new following
distance. Numeric values of the alarm distance and the approach
distance are indicated on liquid crystal display 12.
[0097] Although the alarm distance and the second reference
distance are the same in the third embodiment, they may be
different from each other. For example, the alarm distance can be
set to 29 meters with respect to the second reference distance of
30 meters. All that is needed is to A. 209 predetermine relation
between the distances.
[0098] Fourth Embodiment
[0099] Next, the function and workings of a following distance
displaying apparatus according to the fourth embodiment will be
described with reference to the flow chart of FIG. 8. The following
distance displaying apparatus of the fourth embodiment is identical
to the apparatus of the first embodiment in terms of the electrical
structure of the apparatus, the distance relation between the
preceding vehicle and the subject vehicle, and the screen
arrangement of liquid crystal display 12, described above with
reference to FIGS. 1-3. Thus, the same components (portions) are
denoted by the same reference character, and detailed description
thereof will not be repeated here. Further, in the description
below, it is assumed that the relation between the currently
measured following distance and the alarm and approach distances is
the same as in the second embodiment.
[0100] Referring to the flow chart of the following distance
displaying apparatus in FIG. 8, a distance to the preceding vehicle
is measured by following distance measuring device 1 in step Q1,
and the distance is displayed at following distance display portion
13 of liquid crystal display 12 in step Q2. In the example shown in
FIG. 2, the numeric value "22" is indicated at following distance
display portion 13. After the measurement of the distance, when the
driver turns on a switch of input device 11 near at hand (step Q3),
reading of a measurement value of the measured distance is started.
The numeric value "17" of the alarm distance, at which alarm 10
activates in step Q7, is indicated at alarm distance display
portion 14. This alarm distance is predetermined corresponding to
the following distance of 22 meters measured at that time. The
numeric value "5" is indicated at approach distance display portion
15, which represents a difference between the numeric value "22"
indicated at following distance display portion 13 and the numeric
value "17" indicated at alarm distance display portion 14 (step
Q4). A distance relation between the measured distance of 22 meters
and the corresponding alarm distance of 17 meters, i.e., the
numeric value "5" as the approach distance, can be set arbitrarily
by the modulator on operation panel 9, as described in the second
embodiment. Alternatively, the approach distances may be preset
such that they vary according to the magnitude of the measured
distances.
[0101] As the following distance to the preceding vehicle changes,
the numeric values indicated at following distance display portion
13 and approach distance display portion 15 are changed
accordingly. The numeric value (e.g. "17") indicated at alarm
distance display portion 14, however, remains unchanged until the
flow in operation proceeds to step Q9 where the clear processing is
conducted (or, until the measurement of distance is cancelled in
the middle course). If the subject vehicle comes still closer to
the preceding vehicle and it is determined in step Q6 that they are
within the alarm distance, then the numeric value of "0" is
indicated at approach distance display portion 15. This numeric
value is indicated until input device 11 is released (the driver
turns off the input switch) in step Q8. In step Q7, alarm 10
generates a warning sound. At this time, the alarm lamp is also
flashed. Instead of the alarm lamp, the numeric value of "0" may be
flashed, as in the second embodiment, or an indicator light
additionally provided may be flashed. Further, in step Q7, it may
be configured such that the system is automatically cleared after
operation of alarm 10 for a prescribed time period, irrelevant to
the release of input device 11 in step Q8, and the control returns
to the starting point, as in the second embodiment. There may be a
case where approach distance display portion 15 indicates a
negative numeric value when another vehicle interrupts between the
subject vehicle and the preceding vehicle, for example. In such a
case, the negative numeric value is flashed on and off in step Q7,
as described in the second embodiment.
[0102] Generation of a sound for confirmation of the system
operation in step Q4, comparison between the measured distance and
the alarm distance in step Q5 and processing executed in the
subsequent steps will be readily realized by a person skilled in
the art. This following distance alarming apparatus operates while
input device 11 is turned on and thus performing the input
operation. If the input operation is stopped (by turning off the
device) while the system flow is in operation, the processing is
cleared (cancelled) wherever the control resides in the flow.
[0103] As explained above, according to the fourth embodiment, the
driver is allowed to manipulate input device 11 to make the alarm
and approach distances displayed on liquid crystal display 12, as
in the first embodiment, at an arbitrary time point. Therefore, in
the fourth embodiment, unlike the first to third embodiments, it is
unnecessary to wait for the output signal values from sensor 4 to
remain unchanged for a prescribed time period or to wait for the
preceding vehicle and the subject vehicle to maintain the follow-up
travel state for a predetermined time period. As a result, a
following distance alarming apparatus allowing the driver to
quickly respond to travelling conditions can be realized. If the
collision alarming apparatuses and the collision predicting
apparatus in the first through third embodiments are each provided
with this input device 11, and if their flows are each provided
with a step of proceeding to the subsequent step(s) upon receipt of
a signal from input device 11, instead of or in addition to the
step of determining whether the output signal values from sensor 4
remained unchanged for a prescribed time period or the step of
determining whether the follow-up travel state was maintained for a
predetermined time period, then the apparatuses will enjoy the same
effects as in the fourth embodiment.
[0104] In the fourth embodiment, the approach distance can be set
arbitrarily by the modulator on operation panel 9. The present
invention, however, is not limited thereto. It is possible, for
example, to preset the approach distance as a function of the
measured distances.
[0105] It is possible also in the fourth embodiment to cause,
instead of the alarm lamp, the numeric value "0" indicated at
approach distance display portion 15 to flash on and off, as in the
first embodiment. Furthermore, it may be configured such that alarm
10 activated in step Q7 automatically stops after a prescribed time
of operation, as in the first embodiment, independently of the
release of input device 11 in step Q8. In this case, it may also be
configured such that the processing in step Q9 is automatically
executed to clear the system and the control is returned to the
starting point.
[0106] Moreover, in the fourth embodiment, input device 11 is
provided in the vicinity of the driver's seat. The present
invention, however, is not limited thereto. For example, if input
device 11 is provided as a remote controller that can send a signal
to a controller (not shown) containing microcomputer 2 therein, it
is possible to place the input device 11 at any arbitrary position
allowing easy manipulation by the driver.
[0107] The following distance alarming apparatus and the following
distance displaying apparatus of the present invention are
applicable not only to the rear-end collision alarming apparatus,
the collision predicting apparatus or the following distance
informing apparatus described above, but also to the combination
thereof, for example. Various modifications thereof are also
possible. For example, in the second embodiment, setting and
storing of the reference range for the output signal value and
displaying of the alarm distance, approach distance, zone portion
17 and pointer 18 in step T3 have been performed when the follow-up
travel state was maintained for a prescribed time period (steps T2,
T11). It should be apparent, however, that these steps T2 and T11
can be changed such that the subsequent steps T3 and T12 are
performed when the output signal values from sensor 4 remained
unchanged for a prescribed time period, as described in the first
embodiment.
[0108] In the first and second embodiments, the reference range for
the output signal value has been set and stored based on the output
signal value from sensor 4 at the time when the output signal
values from sensor 4 remained unchanged for a prescribed time
period, or at the time when the subject vehicle and the preceding
vehicle maintained the follow-up travel state for a prescribed time
period. The present invention, however, is not limited thereto. For
example, the output signal value itself from sensor 4 at that time
may be stored as the reference value. In this case, it should be
easy for a person skilled in the art to appropriately modify the
decision contents of step S6 in FIG. 4 and steps T4, T8 in FIG.
5.
[0109] In the embodiments described above, generally, the numeric
values displayed at following distance display portion 13 and
approach distance display portion 15 decrease according to the
decrease of the following distance between the subject vehicle and
the preceding vehicle. These numeric values displayed increase as
the distance between the two vehicles increases. The present
invention, however, is not limited thereto. For example, it may be
configured such that the system in operation is automatically
cleared (cancelled) when the following distance increases beyond a
preset distance. More specifically, in the second embodiment, if a
distance at which the system flow is cleared (cancelled) is set to
27 meters corresponding to the following distance of 22 meters at
the time when the follow-up travel state was maintained for a
prescribed time period, then the system flow can be cleared when
the distance between the subject vehicle and the preceding vehicle
reaches 27 meters, to return to the starting point.
[0110] The displaying apparatus of the present invention, likewise,
is applicable nonexclusively to the following distance alarming
apparatus described above. For example, it may also be applicable
to a known following distance alarming apparatus that causes alarm
10 to activate when it is detected that the following distance
between the subject vehicle and the preceding vehicle has decreased
to a safety following distance predetermined according to the speed
of the subject vehicle. In this case, it may be configured such
that the safety following distance predetermined according to the
speed of the subject vehicle, i.e., the alarm distance at which
alarm 10 activates, and the approach distance indicated by the
difference between the following distance to the preceding vehicle
and the alarm distance are displayed when the subject vehicle and
the preceding vehicle maintained the follow-up travel state for a
prescribed time period.
[0111] Various modifications are conceivable for the numeric value
displayed at approach distance display portion 15. For example, the
numeric value initially displayed may be differentiated from the
subsequently displayed values, by highlighting it with a different
color or with character inversion. Any displaying manner can be
adapted, as long as it makes the numeric value perceivable as an
aid to maintain a good and safe distance from the preceding
vehicle.
[0112] Furthermore, it is possible to configure the apparatuses of
the respective embodiments to operate only when prescribed
conditions are satisfied. For example, the apparatuses may be
configured to operate exclusively when the speed of the subject
vehicle is greater than a predetermined speed, or when the output
signal value from sensor 4 exceeds a predetermined value. Moreover,
in place of or in addition to these modifications, it is possible
to configure such that the respective apparatus in operation stops
the operation when other prescribed conditions are satisfied. For
example, it may be configured such that the processing is cancelled
when the apparatus in operation has continuously received a signal
from brake sensor 6 for a fixed time period or when the following
distance was not measured in a fixed time period. It is noted that,
although such a modification may increase complexity of the
processing or costs of the apparatus, remarkable effects can be
expected from the standpoint of preventing traffic accidents.
[0113] In this case, it will be more effective if the driver is
informed of the reason why the processing was cancelled or why
alarm 10 failed to operate. To this end, it is possible, for
example, to provide an indicator lamp on liquid crystal display 12.
As a displaying manner, when the processing was cancelled by the
signal from brake sensor 6, for example, a mark symbolizing the
brake may be displayed on liquid crystal display 12 for a fixed
time period.
[0114] In the first and second embodiments, sensor 4 was a throttle
valve opening sensor. The present invention, however, is not
limited thereto. For example, sensor 4 may be an air flow meter
provided in an intake manifold for detecting the volume of air
sucked into an engine, a vacuum sensor detecting a pressure of an
intake manifold, an engine speed sensor detecting an engine speed,
a touch sensor attached to accelerator pedal 3, or any other sensor
having its signal output amount changing in accordance with
manipulation of accelerator pedal 3. Alternatively, a sensor
detecting a battery voltage changing in accordance with the
manipulation of accelerator pedal 3 may be used as sensor 4.
[0115] As explained above, according to the present invention,
operative conditions of the following distance alarming apparatus
are changed, after the subject vehicle and the preceding vehicle
maintained the follow-up travel state for a prescribed time period,
or after the measured distance to the preceding vehicle remained
unchanged for a prescribed time period, every time a newly
established follow-up travel state is detected, or every time it is
detected that the output signal values from sensor 4 remained
unchanged for a prescribed time period, based on a distance
predetermined corresponding to the following distance measured at
that time and the output signal value from sensor 4. As a result,
an automobile collision preventing apparatus allowing accurate
response to travelling conditions can be provided.
[0116] In the displaying apparatus, if the output signal values
from sensor 4 have remained unchanged for a prescribed time period,
or the subject vehicle and the preceding vehicle have maintained
the follow-up travel state for a prescribed time period, or if the
driver operates the input device, the alarm distance at which alarm
10 activates, being preset corresponding to the following distance
measured at that time or the speed of the subject vehicle at that
time, and the approach distance, being the difference between the
following distance subsequently measured and the alarm distance,
are displayed. This allows the driver to readily perceive how many
more meters are left before the following distance reaches the
distance at which alarm 10 activates. In addition, when pointer 18
indicating the change of the output signal value from sensor 4
comes out of the range of zone portion 17 of scale 16, the
displaying manner of each display light such as pointer 18 or zone
portion 17 is changed to facilitate visual recognition as to
whether the conditions required for determination of likelihood of
rear-end collision are being satisfied. These display functions
allow the driver to recognize, at a glance, how the following
distance alarming apparatus is operating with respect to the
preceding vehicle. Accordingly, the present invention serves as a
guide to safe travelling to prevent careless rear-end collision
accidents or the like, thereby contributing to traffic safety.
[0117] Although the present invention has been described and
illustrated in detail, it is clearly understood that the same is by
way of illustration and example only and is not to be taken by way
of limitation, the spirit and scope of the present invention being
limited only by the terms of the appended claims.
* * * * *